0000000001230396
AUTHOR
Maria Toto
Genome-wide characterization of chromatin binding and nucleosome spacing activity of the nucleosome remodeling ATPase ISWI
La struttura dei cromosomi e l‟espressione genica sono influenzati dall‟attività del rimodellatore della cromatina ATP-dipentente ISWI, altamente conservato negli eucarioti[1]. Negli eucarioti superiori ISWI è una proteina ubiquitaria, abbondante e necessaria per la vitalità cellulare [2, 3]. In vitro, ISWI usa l‟energia proveniente dall‟idrolisi dell‟ATP per catalizzare reazioni di “spacing” and “sliding” dei nucleosomi [4]. In Drosophila melanogaster la mancanza della proteina ISWI è in grado di determinare in vivo una profonda alterazione dei livelli trascrizionali di alcuni geni ed una drammatica perdita della struttura complessiva dei cromosomi, facendoli così apparire altamente decond…
Regulation of ISWI chromatin remodelling activity.
The packaging of the eukaryotic genome into chromatin facilitates the storage of the genetic information within the nucleus, but prevents the access to the underlying DNA sequences. Structural changes in chromatin are mediated by several mechanisms. Among them, ATP-dependent remodelling complexes belonging to ISWI family provides one of the best examples that eukaryotic cells evolved to finely regulate these changes. ISWI-containing complexes use the energy derived from ATP hydrolysis to rearrange nucleosomes on chromatin in order to favour specific nuclear reactions. The combination of regulatory nuclear factors associated with the ATPase subunit as well as its modulation by specific histo…
Genome-wide characterization of chromatin binding and nucleosome spacing activity of the nucleosome remodelling ATPase ISWI
The evolutionarily conserved ATP-dependent nucleosome remodelling factor ISWI can space nucleosomes affecting a variety of nuclear processes. In Drosophila, loss of ISWI leads to global transcriptional defects and to dramatic alterations in higher-order chromatin structure, especially on the male X chromosome. In order to understand if chromatin condensation and gene expression defects, observed in ISWI mutants, are directly correlated with ISWI nucleosome spacing activity, we conducted a genome-wide survey of ISWI binding and nucleosome positioning in wild-type and ISWI mutant chromatin. Our analysis revealed that ISWI binds both genic and intergenic regions. Remarkably, we found that ISWI…
Genome-wide characterization of chromatin binding and nucleosome spacing activity of the nucleosome remodelling ATPase ISWI.
The evolutionarily conserved ATP-dependent nucleosome remodelling factor ISWI can space nucleosomes affecting a variety of nuclear processes. In Drosophila, loss of ISWI leads to global transcriptional defects and to dramatic alterations in higher-order chromatin structure, especially on the male X chromosome. In order to understand if chromatin condensation and gene expression defects, observed in ISWI mutants, are directly correlated with ISWI nucleosome spacing activity, we conducted a genome-wide survey of ISWI binding and nucleosome positioning in wild-type and ISWI mutant chromatin. Our analysis revealed that ISWI binds both genic and intergenic regions. Remarkably, we found that ISWI…